X-Git-Url: http://mmka.chem.univ.gda.pl/gitweb/?p=unres.git;a=blobdiff_plain;f=source%2Fwham%2Fsrc-M%2Fenergy_p_new.F;h=a36e177821ebf3f2bdca4c74b1f5d8c1a95eb2e7;hp=378eaae32fe26612ac1bcc36e34454de3dca2896;hb=46f3f544d5a60812e2e11e03b619903f2ed052eb;hpb=22ea58d3be4c7c625b9c5fb0e9f6d1b2bf7428f6 diff --git a/source/wham/src-M/energy_p_new.F b/source/wham/src-M/energy_p_new.F index 378eaae..a36e177 100644 --- a/source/wham/src-M/energy_p_new.F +++ b/source/wham/src-M/energy_p_new.F @@ -2398,8 +2398,12 @@ C fac_shield(j)=0.6 fac_shield(j)=1.0 eesij=(el1+el2) ees=ees+eesij + &*((sslipi+sslipj)/2.0d0*lipscale**2+1.0d0) + endif evdw1=evdw1+evdwij*sss + &*((sslipi+sslipj)/2.0d0*lipscale**2+1.0d0) + c write (iout,'(a6,2i5,0pf7.3,2i5,2e11.3)') c &'evdw1',i,j,evdwij c &,iteli,itelj,aaa,evdw1 @@ -2414,7 +2418,11 @@ C Calculate contributions to the Cartesian gradient. C #ifdef SPLITELE facvdw=-6*rrmij*(ev1+evdwij)*sss + & *((sslipi+sslipj)/2.0d0*lipscale**2+1.0d0) + facel=-3*rrmij*(el1+eesij) + &*((sslipi+sslipj)/2.0d0*lipscale**2+1.0d0) + fac1=fac erij(1)=xj*rmij erij(2)=yj*rmij @@ -2498,8 +2506,13 @@ C ggg(2)=facvdw*yj C ggg(3)=facvdw*zj if (sss.gt.0.0) then ggg(1)=facvdw*xj+sssgrad*rmij*evdwij*xj + & *((sslipi+sslipj)/2.0d0*lipscale**2+1.0d0) ggg(2)=facvdw*yj+sssgrad*rmij*evdwij*yj + & *((sslipi+sslipj)/2.0d0*lipscale**2+1.0d0) + ggg(3)=facvdw*zj+sssgrad*rmij*evdwij*zj + & *((sslipi+sslipj)/2.0d0*lipscale**2+1.0d0) + else ggg(1)=0.0 ggg(2)=0.0 @@ -2510,6 +2523,11 @@ C ggg(3)=facvdw*zj gvdwpp(k,i)=gvdwpp(k,i)+ghalf gvdwpp(k,j)=gvdwpp(k,j)+ghalf enddo + gvdwpp(3,j)=gvdwpp(3,j)+ + & sss*ssgradlipj*evdwij/2.0d0*lipscale**2 + gvdwpp(3,i)=gvdwpp(3,i)+ + & sss*ssgradlipi*evdwij/2.0d0*lipscale**2 + * * Loop over residues i+1 thru j-1. * @@ -2520,6 +2538,8 @@ C ggg(3)=facvdw*zj enddo #else facvdw=(ev1+evdwij)*sss + & *((sslipi+sslipj)/2.0d0*lipscale**2+1.0d0) + facel=el1+eesij fac1=fac fac=-3*rrmij*(facvdw+facvdw+facel) @@ -2564,6 +2584,8 @@ cd & (dcosg(k),k=1,3) do k=1,3 ggg(k)=ecosb*dcosb(k)+ecosg*dcosg(k) & *fac_shield(i)**2*fac_shield(j)**2 + & *((sslipi+sslipj)/2.0d0*lipscale**2+1.0d0) + enddo do k=1,3 ghalf=0.5D0*ggg(k) @@ -2571,11 +2593,15 @@ cd & (dcosg(k),k=1,3) & +(ecosa*(dc_norm(k,j)-cosa*dc_norm(k,i)) & + ecosb*(erij(k)-cosb*dc_norm(k,i)))*vbld_inv(i+1) & *fac_shield(i)**2*fac_shield(j)**2 + & *((sslipi+sslipj)/2.0d0*lipscale**2+1.0d0) + gelc(k,j)=gelc(k,j)+ghalf & +(ecosa*(dc_norm(k,i)-cosa*dc_norm(k,j)) & + ecosg*(erij(k)-cosg*dc_norm(k,j)))*vbld_inv(j+1) & *fac_shield(i)**2*fac_shield(j)**2 + & *((sslipi+sslipj)/2.0d0*lipscale**2+1.0d0) + enddo do k=i+1,j-1 do l=1,3 @@ -2831,9 +2857,11 @@ C fac_shield(j)=0.6 eel_loc_ij=eel_loc_ij & *fac_shield(i)*fac_shield(j) &*((sslipi+sslipj)/2.0d0*lipscale+1.0d0) -c write (iout,*) 'i',i,' j',j,' eel_loc_ij',eel_loc_ij -C write (iout,'(a6,2i5,0pf7.3)') -C & 'eelloc',i,j,eel_loc_ij +C write (iout,'(a3,i4,a3,i4,a8,4f8.3)') +C & 'i',i,' j',j,' eel_loc_ij',eel_loc_ij,sslipi, +C & sslipj,lipscale +C write (iout,'(a6,2i5,0pf7.3,2f7.3)') +C & 'eelloc',i,j,eel_loc_ij,a22*muij(1),a23*muij(2) C write(iout,*) 'muije=',i,j,muij(1),muij(2),muij(3),muij(4) c write (iout,*) a22,muij(1),a23,muij(2),a32,muij(3) C eel_loc=eel_loc+eel_loc_ij @@ -3272,7 +3300,9 @@ C fac_shield(j)=0.6 eello_t3=0.5d0*(pizda(1,1)+pizda(2,2)) & *fac_shield(i)*fac_shield(j) &*((sslipi+sslipj)/2.0d0*lipscale+1.0d0) - + write (iout,'(a3,i4,a3,i4,a8,4f8.3)') + & 'i',i,' j',j,' eturn3',eello_t3,sslipi, + & sslipj,lipscale cd write (2,*) 'i,',i,' j',j,'eello_turn3', cd & 0.5d0*(pizda(1,1)+pizda(2,2)), cd & ' eello_turn3_num',4*eello_turn3_num @@ -3431,6 +3461,8 @@ C fac_shield(j)=0.6 eello_turn4=eello_turn4-(s1+s2+s3) & *fac_shield(i)*fac_shield(j) + &*((sslipi+sslipj)/2.0d0*lipscale+1.0d0) + eello_t4=-(s1+s2+s3) & *fac_shield(i)*fac_shield(j)